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Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Aleksei Aksimentiev, and Robert Hołyst. "Application of the Euler characteristic to the study of homopolymer blends and copolymer melts." Polimery 46:309-322 (2001).

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

Woochul Song, Himanshu Joshi, Ratul Chowdhury, Joseph S. Najem, Yue-xiao Shen, Chao Lang, Codey B. Henderson, Yu-Ming Tu, Megan Farell, Megan E. Pitz, Costas D. Maranas, Paul S. Cremer, Robert J. Hickey, Stephen A. Sarles, Jun-li Hou, Aleksei Aksimentiev, and Manish Kumar. "Artificial Water Channels Enable Fast and Selective Water Permeation Through Water-wire Networks." Nature Nanotechnology. 15,:73-79 (2020).

song2019_si.pdf (15.29 MB)

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